Rhabdomyosarcoma Cells through Inhibition of Signaling via Rapamycin Selectively Inhibits the Growth of Childhood

We show that cell lines derived from childhood alveolar rhabdomyosarcoma (RMS) are very sensitive to the growth-inhibitory effects of the immunosuppressive agent rapamycin (RAP), compared to other human cell lines (50% inhibitory concentration range of 0.1-8 ng/mi, compared to 1280 to >10,000 ng/ml). Our data suggest that the sensitivity of RMS lines is due to RAP inhibition of insulin-like growth factor 1 receptor-mediated signaling, which is essential for continued proliferation of RMS cells. The embryonal RMS line Rhl, which was resistant to RAP in serum-containing medium (50% inhibitory concentration, 4180 ng/ml), was highly sensitive under autocrine conditions of growth, indicating that resistance was due to paracrine signaling pathways insensitive to RAP action. FK506 reversed RAP action in all cell lines, indicating a dependence on complexing with the cytosolic FK506-binding protein for activity.